EXPERIMENT 10: SINGLE-TRANSISTOR AMPLIFIERS 10/27/17
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1 EXPERIMENT 10: SINGLE-TRANSISTOR AMPLIFIERS 10/27/17 In this experiment we will measure the characteristics of the standard common emitter amplifier. We will use the 2N3904 npn transistor. If you have time, you can also investigate the characteristics of the common collector amplifier, usually called an emitter follower. I. THE COMMON EMITTER AMPLIFIER The common emitter amplifier has a moderate gain as well as moderate input and output impedances. The circuit we will use is shown below. In this circuit resistors R1 and R2 are used to set the base to the desired DC operating voltage. Often in circuits of this kind, one uses an input capacitor to decouple the DC voltage level of vin from the base. In the present circuit what we do instead is adjust VB to match the DC level of the source, thus making the capacitor unnecessary. The output of the amplifier is taken from the collector through capacitor Cc, so that vout has a DC level of zero. The resistor RE provides negative feedback in the following way. If the base voltage VB is raised, IB and IE both increase. As more current flows through RE, the emitter voltage also rises (since VE = VEE + IERE). This prevents VBE from changing by very much, which in turn means that the changes in IE will not be too large. If one chooses a small value for RE the gain of the amplifier will be large, but the amplified signal will be distorted and sensitive to changes in temperature. 1
2 Before you come to lab, you should complete the homework problems (problems 8.7 and 8.8 in Sprott) that involve designing and calculating the properties of a common emitter amplifier. 1. The circuit we will use is mounted on a pre-wired circuit board. Sketch the circuit in your lab notebook, labeling the values of all components including the precision of all resistors used in the circuit. The value of CC is apparent from the markings on the capacitor and will be verified in step 5 below. 2. Install the transistor in the circuit board. Connect the power supplies for VCC and VEE and then set VCC = +20 V, and VEE = 1.5 V. For now, the function generator (vin) should not be connected. Using a DMM, adjust VEE to get VB to within ~1 mv of zero. Then measure VEE, VC, and VE (with the DMM) and calculate the quiescent (DC) value of IC. 4. (a) Set up the function generator to produce sine waves with frequency f = 10 khz. Install a 4.7 resistor across the terminals of the function generator and connect it between the base and ground. Adjust the amplitude of vin to obtain an AC voltage of 2 V at the collector. Make a sketch of vin and the voltage at the collector (remember that the collector voltage has both AC and DC parts). (b) Use a scope to measure vin and vout and calculate the open circuit (noload) gain, G0. Compare your result with the calculated value of G. (c) Measure Rin and Rout, and compare your results with the calculate values. To measure Rin, put a resistor R between the function generator and the base and adjust R until VB (or vout) drops by a factor of 2. To measure Rout use the same procedure with the resistor on the output side of CC. (If you were to connect the resistor on the collector side of CC you would change the DC operating point of the amplifier!!) 5. (a) Using the scope, measure and tabulate vin and vout as a function of frequency for 1 Hz f 10 khz (3 points/decade 1,2,5,10,20,50, etc. is sufficient except near the corner frequency). Plot the gain as a function of f on logarithmically-spaced axes. (b) The falloff in the gain at low frequencies is caused by the non-zero impedance of the output capacitor. From your graph determine the breakpoint frequency (i.e. the frequency at which G has dropped off by a factor of 2 compared to the high-frequency limit). At this frequency, the voltage across CC is equal in magnitude to the voltage across the output resistors; i.e., ZC = RL + Rout. Use this formula together with your measured breakpoint frequency to determine CC. 6. Set the function generator to f = 10 khz, and increase vin to drive vc to both cutoff and saturation (you may need to remove the 4.7 resistor for this step). Sketch the collector voltage and determine VC(off) and VC(sat). Compare your measured and calculated values. 2
3 7. In this step we will observe the behavior of the amplifier in the grounded-emitter configuration. Rather than grounding the emitter directly, the idea is to bypass RE by connecting the capacitor CE to ground. This keeps the DC operating point of the amplifier unchanged, while grounding the emitter as far as AC voltages are concerned. In other words, the emitter voltage will now be constant, which means that there is no longer any negative feedback. (a) Connect CE to ground and adjust the amplitude of vin to obtain vout = 5 V peak-to-peak (you will need to put the 4.7 resistor, back in). Use a DMM to measure the magnitude of vin and vout, and determine the open-circuit gain. For grounded-emitter operation the gain is given by G = RC/rtr. Use the measured value of G to determine the transresistance and compare your result with the expected value rtr = VkT/IE. (b) Switch the function generator to triangle waves and increase vout to 8 V peak-to-peak. Make a sketch of the collector voltage, vc(t), including both the DC and AC parts. On the same graph, indicate the quiescent value of vc (i.e. the value obtained with vin = 0). Can you explain why vc looks the way it does? 3
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